CN109596506A - A kind of anti-cavitation corrosion of coating, resistance to high speed wash away performance test apparatus - Google Patents
A kind of anti-cavitation corrosion of coating, resistance to high speed wash away performance test apparatus Download PDFInfo
- Publication number
- CN109596506A CN109596506A CN201811565488.7A CN201811565488A CN109596506A CN 109596506 A CN109596506 A CN 109596506A CN 201811565488 A CN201811565488 A CN 201811565488A CN 109596506 A CN109596506 A CN 109596506A
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- coating
- test piece
- high speed
- resistance
- cavitation corrosion
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N17/00—Investigating resistance of materials to the weather, to corrosion, or to light
Abstract
The present invention provides a kind of anti-cavitation corrosion of coating, resistance to high speed washes away performance test apparatus, including propeller analogue body, if driving equipment and dry coating test piece, the propeller analogue body includes upper half conduit, lower half conduit and the rectification space formed after being mutually butted by the upper half conduit and the lower half conduit, it further include the rotor in the rectification space, the rotor includes the rotating hub that central axes are total to the rectification space, rotating vane set on the rotating hub and the carrying annulus by the apical support of the rotating vane, if the dry coating test piece is uniformly distributed in the outer surface for carrying annulus, hollow out passes through for fluid between the adjacent rotating vane, the driving equipment is by rotating hub described in coupling of shaft system to drive its rotation.Beneficial effects of the present invention: the anti-cavitation corrosion that can study, verify and examine different coating, the performance of flushing of resistance to high speed.
Description
Technical field
The present invention relates to coating for watercraft material property testing engineering device technique field more particularly to a kind of anti-cavitation corrosions of coating, resistance to
High speed washes away performance test apparatus.
Background technique
When high load capacity works in water, rotor blade local pressure reduces marine propeller rotor, when being reduced to critical value
When following, lead to the vaporization of explosion type, steam enters gas core by interface and is allowed to expand, and forms bubble, and cavitation corrosion occurs.Cavitation corrosion
Once honeycomb etch pit will be formed on rotor material surface and propeller material conduit surface by generating, in cavitation corrosion and fluid high-speed
The sharply decline that will result in the strength of materials under the synergy washed away seriously affects the service performance of propeller and uses the longevity
Life.It therefore, can be in each parts surface laying coating of propeller as protection.Currently, larger-sized vessel and high power are ships
The load of the trend of development, marine propeller is continuously increased, also higher and higher to the performance requirement of coating material, and anti-cavitation corrosion,
The performance of flushing of resistance to high speed is an important performance assessment criteria of marine propeller coating material.
For research, verifying and the anti-cavitation corrosion of different coating, the performance of flushing of resistance to high speed are examined, chooses performance preferably coating material
Material is used for engineering practice, and coating Comparability test is most direct effective method, needs to develop Special testing device thus.
Summary of the invention
In view of this, the embodiment provides a kind of anti-cavitation corrosion of coating, resistance to high speeds to wash away performance test apparatus, energy
Enough research, the anti-cavitation corrosion of verifying and examination different coating, the performance of flushing of resistance to high speed.
The embodiment of the present invention provides a kind of anti-cavitation corrosion of coating, resistance to high speed washes away performance test apparatus, including propeller mould
If quasi- body, driving equipment and dry coating test piece, the propeller analogue body includes upper half conduit, lower half conduit and by the upper half
The rectification space that conduit and the lower half conduit are formed after being mutually butted, the rectification space further include for flowing through for fluid
Rotor in the rectification space, the rotor include being total to the rotating hub of central axes with the rectification space, being set to described turn
The rotating vane of hub and carrying annulus by the apical support of the rotating vane, if the dry coating test piece is uniformly set to the carrying
The outer surface of annulus is equipped with the gap flowed through for fluid between adjacent two rotating vane of fluid, is coated in each coating test piece
Coating material to be measured, the driving equipment drive its rotation to make it drive the coating by rotating hub described in coupling of shaft system
Test piece rotates to form cavitation corrosion to the coating material to be measured carries out cavitation corrosion, resistance to high speed washes away performance test.
Further, each coating test piece includes curved body and the splitter set on the curved body opposite end
Shape structure, the upper and lower surfaces of the curved body are arc surface and are parallel to each other, the following table for splitting sharp structure
Face is also arc surface and seamless with the lower surface of the corresponding curved body and connect without folding line described to collectively constitute
The lower surface of coating test piece, the lower surface of the coating test piece and the outer surface curvature having the same for carrying annulus.
Further, each upper and lower surfaces for splitting sharp structure are run through by a bolt hole, are passed through and are corresponded to using bolt
The bolt hole carrying annulus is fixed in the coating test piece.
Further, the side wall for splitting sharp structure is the plane that the upper and lower surfaces of sharp structure are split described in connection, and
The plane is parallel to the diameter for carrying annulus, and the carrying annulus is equipped with and tries correspondingly with the coating test piece
Film trap, the coating test piece are fixed in the corresponding test piece slot, and the side wall for splitting sharp structure and the examination
The cell wall of film trap height having the same.
Further, the coating test piece is arranged in a one-to-one correspondence with the rotating vane, and the center line of each rotating vane passes through
The center of the corresponding coating test piece.
Further, the upper half conduit includes upper arch portion and positioned at the turned-out of the upper arch portion opposite sides
The upper connection flange of folding, the lower half conduit include lower arch portion and the fold outward positioned at the lower arch portion opposite sides
Lower connection flange, the upper connection flange and the lower connection flange correspond, the mutual corresponding upper connection flange
Being fixed to each other with the lower connection flange by bolt is mutually butted the upper half conduit and the lower half conduit;On described
Arch portion is made of clear material, and the propeller analogue body is described by the rigid connection of the lower arch portion and rack
Rack support.
Further, the propeller analogue body further includes the stator for being set to the rectification space, and the stator includes
Be total to determining hub and being uniformly distributed in the commutator segment for determining hub for central axes, the stator and the lower arch with the rectification space
Shape portion is fixedly connected, the shafting rotatably pass through it is described determine hub and connect with the rotating hub, the rotating hub is backwards to the stator
Side be equipped with fair water cone.
Further, the quantity of the commutator segment is more than the quantity of the rotating vane, and flat where the bottom of the commutator segment
Perpendicular to plane where the bottom of the rotating vane, the top of each commutator segment has deviation or partially compared to its bottom in face
Turn.
Further, the rotor is close to the outlet end in the rectification space, and the stator is close to the rectification space
Arrival end, the rectification space is the truncated cone-shaped structure being gradually reduced from its arrival end to its outlet end internal diameter.
Further, underwater miniature high-definition camera and underwater light source, institute are equipped on the outside of the outlet end in the rectification space
It states underwater miniature high-definition camera and is directed at the outer surface for carrying annulus, the Underwater Optical through the transparent upper arch portion
Source is used to be the underwater miniature high-definition camera light filling;One control cabinet connects the driving equipment, the underwater miniature high definition
Video camera and the underwater light source for it to power.
The embodiment of the present invention provide technical solution have the benefit that the anti-cavitation corrosion of coating of the present invention,
Resistance to high speed washes away performance test apparatus, by the way that the propeller analogue body for being provided with several coating test pieces is placed in water
In, and using the driving equipment rotor rotation is driven to simulate the coating on its surface at work of the rotor in propeller
Cavitation corrosion, the process washed away at a high speed are resisted, different coatings can be applied in each coating test piece, and then can study simultaneously,
The anti-cavitation corrosion for verifying and examining a variety of different coatings, the performance of flushing of resistance to high speed, the selection for pusher surface coating provide judgement
Foundation.
Detailed description of the invention
Figure (a), (b), (c) in Fig. 1 are that the anti-cavitation corrosion of coating of the present invention, resistance to high speed wash away the side of performance test apparatus respectively
View, main view and top view;
Fig. 2 is the overall schematic of propeller analogue body;
Fig. 3 is the partial schematic diagram of propeller analogue body;
Fig. 4 is the schematic diagram of coating test piece.
Specific embodiment
To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with attached drawing to embodiment party of the present invention
Formula is further described.
Fig. 1 and Fig. 3 are please referred to, the embodiment provides a kind of anti-cavitation corrosion of coating, resistance to high speeds to wash away performance test
Device, if including propeller analogue body 1, driving equipment 2 and dry coating test piece 14.If the dry coating test piece 14 is set to described
In propeller analogue body 1, for simulating the surface covering of rotor 12 in the propeller analogue body 1, the driving equipment 2 is used for
Drive the rotation of the rotor 12 in the propeller analogue body 1.If the coating in the dry coating test piece 14 can be same
Coating can also be coating not of the same race to improve conventional efficient.
Specifically, Fig. 1 to Fig. 3 is please referred to, the propeller analogue body 1 is including upper half conduit 9, lower half conduit 10 and by institute
State upper half conduit 9 and the lower half conduit 10 be mutually butted after the rectification space that is formed.The upper half conduit 9 includes upper arch portion
23 and positioned at upper 23 opposite sides of arch portion the upper connection flange 24 turned down outward;Under the lower half conduit 10 includes
Arch portion 21 and the lower connection flange 22 turned down outward positioned at lower 21 opposite sides of arch portion.The upper arch portion 23
Other structure features are almost the same in addition to material is different with the lower arch portion 21.
The upper connection flange 24 and the lower connection flange 22 correspond, the mutual corresponding upper connection flange 24
Being fixed to each other with the lower connection flange 22 by bolt is mutually butted the upper half conduit 9 and the lower half conduit 10;
The upper arch portion 23 is made of clear material, and the inside in the rectification space can be directly observed through the upper arch portion 23
Feature.The propeller analogue body 1 is supported by the lower arch portion 10 and the rigid connection of rack 4 by the rack 4, excellent
It selects the lower arch portion 21 to be made of stainless steel, there is biggish rigidity.The rectification space includes outlet end and arrival end, and
The rectification space is the truncated cone-shaped structure being gradually reduced from its arrival end to its outlet end internal diameter.
The propeller analogue body 1 further includes the rotor 12 in the rectification space, and the rotor 12 is close to described
Outlet end setting, and the rotor 12 includes being total to the rotating hub 18 of central axes with the rectification space, turning set on the rotating hub 18
Leaf 17 and by the carrying annulus 15 of the apical support of the rotating vane 17, if the dry coating test piece 14 is uniformly distributed in described take
The outer surface for carrying annulus 15, hollow out passes through for fluid between the adjacent rotating vane 17.The coating test piece 14 with described turn
Leaf 17 is arranged in a one-to-one correspondence, and the center line of each rotating vane 17 passes through the center of the corresponding coating test piece 14.This
In embodiment, the rotating vane 17 has 5, and the corresponding coating test piece 14 has 5, so primary test at most can be simultaneously
Research, the anti-cavitation corrosion of 5 kinds of different coatings of verifying and examination, the performance of flushing of resistance to high speed.The rotating vane 17 and the carrying annulus 15
It is kept when rotation opposing stationary.The center line of each rotating vane 17 why is set to pass through the corresponding coating test piece 14
Center, the reason is that the position be easier occur cavitation corrosion, i.e., with more test meaning.
Fig. 3 and Fig. 4 are please referred to, each coating test piece 14 is including curved body 26 and is set to 26 phase of curved body
Sharp structure 25 is split to both ends, the upper and lower surfaces of the curved body 26 are arc surface and are parallel to each other, described
The lower surface for splitting sharp structure 25 is also arc surface and seamless with the lower surface of the corresponding curved body 26 and without folding
Trace is connected to collectively constitute the lower surface of the coating test piece 14, the lower surface of the coating test piece 14 and the carrying annulus 15
Outer surface curvature having the same, thus each coating test piece 14 can with it is described carry annulus 15 outer surface it is close
Fitting.Each upper and lower surfaces for splitting sharp structure 25 are run through by a bolt hole 16, are passed through using bolt corresponding described
The coating test piece 14 is fixed on the carrying annulus 15 by bolt hole 16, and when bolt is screwed into the bolt hole 16, will not
Destroy the examination surface of the coating test piece 14.The side wall for splitting sharp structure 25 is to split sharp structure 25 described in connection
The plane of upper and lower surfaces, and the plane is parallel to the diameter for carrying annulus 15, i.e., height in sharp structure 25 is split described in conduct
Most thin side wall also has certain height, and the carrying annulus 15 is equipped with and the one-to-one test piece of the coating test piece 14
Slot, the coating test piece 14 are fixed in the corresponding test piece slot, and the side wall for splitting sharp structure 25 with it is described
The cell wall of test piece slot height having the same.So that the side wall for splitting sharp structure 25 will not protrude or the recessed test piece
Slot, and then the resistance to fluid when rotating at high speed can be reduced.The upper surface for splitting sharp structure 25 is inclined flat
Face is connected between the upper surface of the corresponding curved body 26 by folding line.It is preferred that the curved body 26 and therewith
The corresponding sharp structure 25 of splitting is integrally formed.The structure feature for splitting sharp structure 25 can reduce resistance.
The propeller analogue body 1 further includes the stator 13 for being set to the rectification space, and the stator 13 is close to described
Arrival end setting, and the stator 13 include with it is described rectification space be total to central axes determine hub 19 and be uniformly distributed in it is described fixed
The commutator segment 20 of hub 19, the stator 13 are fixedly connected with the lower arch portion 21, and a shafting 8 rotatably determines hub across described
19 connect with the rotating hub 18, and the rotating hub 18 is equipped with fair water cone 11 backwards to the side of the stator, and the driving equipment 2 connects
The shafting 8 is for driving the shafting 8 to rotate.The quantity of the commutator segment 20 is more than the quantity of the rotating vane 17, this implementation
The quantity of commutator segment 20 described in example is 8, and but not limited to this, and plane where the bottom of the commutator segment 20 is perpendicular to institute
The top of plane where stating the bottom of rotating vane 17, each commutator segment 20 has deviation or deflection compared to its bottom.Institute
When stating rotor 12 and rotating, the stator 13 is stationary or commutator segment 20 on the stator 13 and the rotor 12 in the same direction
Rotation is that be lower than the rotor 20 relatively more described than commutator segment 20 on the revolving speed or the stator 13 of the rotor 12 inverse for revolving speed
To rotation.The commutator segment 20 on the stator 13 plays rectification during the rotor 12 rotates.If described
When rotor 12 rotates, the stator 13 is stationary, then the stator 13 is by determining the several described of 19 lower section of hub positioned at described
Being fixedly connected between commutator segment 20 and the lower arch portion 21 and be fixedly connected with the lower arch portion 21.
Underwater miniature high-definition camera 5 and underwater light source 6 are equipped on the outside of the outlet end in the rectification space, it is described underwater micro-
Type high-definition camera 5 is directed at the outer surface for carrying annulus 15, therefore the rotor 12 through the transparent upper arch portion 23
When rotation, the underwater miniature high-definition camera 5 can shoot the institute on the carrying annulus 15 through the upper arch portion 23
Coating test piece 14 is stated by cavitation corrosion and the process washed away at a high speed.
The underwater light source 6 is used to be 5 light filling of underwater miniature high-definition camera, makes the underwater miniature high-definition camera
Machine 5 can shoot clearer picture or image.One control cabinet 3 connects the driving equipment 2, the underwater miniature high definition
Video camera 5 and the underwater light source 6 for it to power.
In use, the rack 4 is built in experimental tank 7, then by making the lower arch portion 21 and the machine
Frame 4 is rigidly connected and the propeller analogue body 1 is made to be fixed on the rack 4 and be supported by the rack 4, makes described underwater micro-
Type high-definition camera 5 and the underwater light source 6 are installed in place, make the driving equipment 2 rotatably pass through it is described determine hub 19 and
The rotating hub 18 connects, and connects the control cabinet 3, the driving equipment 2, the underwater miniature high-definition camera 5 and the water
Lower light source 6, by the control cabinet 3 setting the experimental tank 7 on the bank, its waterlogged damage is prevented, in Xiang Suoshu experimental tank 7
Enough water is injected, the propeller analogue body 1 is totally submerged.Start the driving equipment 2 by the control cabinet 3,
And the driving speed of the driving equipment 2 is set as needed to meet the requirement of different fluid eroding velocity, the shafting 8 will
The torque of the driving equipment 2 passes to the rotor 12, and simultaneously cavitation corrosion occurs for 12 high speed rotation of rotor, is mounted on described turn
The coating test piece 14 on the carrying annulus 15 in son 12 receives anti-cavitation corrosion with this condition, the performance of flushing of resistance to high speed is surveyed
Examination.The underwater miniature high-definition camera 5 is used to shooting and recording the cavitation corrosion situation around the coating test piece 14.Work as experiment opening
Before beginning or after the completion or when needing to change the coating test piece 14, the coating test piece can be carried out by removing the upper half conduit 9
14 remove and install.
The embodiment of the present invention provide technical solution have the benefit that the anti-cavitation corrosion of coating of the present invention,
Resistance to high speed washes away performance test apparatus, by placing the propeller analogue body 1 for being provided with several coating test pieces 14
Yu Shuizhong, and drive the rotation of rotor 12 to simulate its table at work of the rotor in propeller using the driving equipment 2
The process that the coating in face is resisted cavitation corrosion, washed away at a high speed, can apply different coatings in each coating test piece 14, and then can be with
The anti-cavitation corrosion of a variety of different coatings, the performance of flushing of resistance to high speed are studied, verified and examined simultaneously, is the selection of pusher surface coating
Judgment basis is provided.
Herein, the nouns of locality such as related front, rear, top, and bottom are to be located in figure with components in attached drawing and zero
Part mutual position defines, only for the purpose of expressing the technical solution clearly and conveniently.It should be appreciated that the noun of locality
Use should not limit the claimed range of the application.
In the absence of conflict, the feature in embodiment and embodiment herein-above set forth can be combined with each other.
The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all in spirit of the invention and
Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (10)
1. a kind of anti-cavitation corrosion of coating, resistance to high speed wash away performance test apparatus, it is characterised in that: including propeller analogue body, driving
If equipment and dry coating test piece, the propeller analogue body includes upper half conduit, lower half conduit and by the upper half conduit and institute
The rectification space formed after lower half conduit is mutually butted is stated, the rectification space further includes set on described for flowing through for fluid
The rotor in space is rectified, the rotor includes being total to the rotating hub of central axes, set on the rotating vane of the rotating hub with the rectification space
With by the carrying annulus of the apical support of the rotating vane, if the dry coating test piece is uniformly set to and described carries the outer of annulus
Surface is equipped with the gap flowed through for fluid between adjacent two rotating vane of fluid, is coated with coating to be measured in each coating test piece
Material, the driving equipment drive its rotation by rotating hub described in coupling of shaft system to make it drive the coating test piece rotation
Cavitation corrosion is formed to the coating material to be measured carries out cavitation corrosion, resistance to high speed washes away performance test.
2. the anti-cavitation corrosion of coating as described in claim 1, resistance to high speed wash away performance test apparatus, it is characterised in that: each described
Coating test piece includes curved body and the sharp structure of splitting set on the curved body opposite end, the upper table of the curved body
Face and lower surface are arc surface and are parallel to each other, the lower surface for splitting sharp structure be also arc surface and with it is corresponding
The lower surface of the curved body is seamless and is connected without folding line to collectively constitute the lower surface of the coating test piece, the coating examination
The lower surface of piece and the outer surface curvature having the same for carrying annulus.
3. the anti-cavitation corrosion of coating as claimed in claim 2, resistance to high speed wash away performance test apparatus, it is characterised in that: each described
The upper and lower surfaces for splitting sharp structure are run through by a bolt hole, pass through the corresponding bolt hole using bolt and try the coating
Piece is fixed on the carrying annulus.
4. the anti-cavitation corrosion of coating as claimed in claim 3, resistance to high speed wash away performance test apparatus, it is characterised in that: the splitter
The side wall of shape structure is the plane that the upper and lower surfaces of sharp structure are split described in connection, and the plane is parallel to the carrying annulus
A diameter, the carrying annulus be equipped with the one-to-one test piece slot of the coating test piece, the coating test piece is fixed on
In the corresponding test piece slot, and the cell wall height having the same of the side wall for splitting sharp structure and the test piece slot
Degree.
5. the anti-cavitation corrosion of coating as described in claim 1, resistance to high speed wash away performance test apparatus, it is characterised in that: the coating
Test piece is arranged in a one-to-one correspondence with the rotating vane, and the center line of each rotating vane passes through in the corresponding coating test piece
The heart.
6. the anti-cavitation corrosion of coating as described in claim 1, resistance to high speed wash away performance test apparatus, it is characterised in that: the upper half
Conduit includes upper arch portion and the upper connection flange turned down outward positioned at the upper arch portion opposite sides, and the lower half is led
Pipe includes lower arch portion and the lower connection flange turned down outward positioned at the lower arch portion opposite sides, and the upper connection is turned over
Side and the lower connection flange correspond, and the mutual corresponding upper connection flange and the lower connection flange pass through bolt phase
Mutual fixation and be mutually butted the upper half conduit and the lower half conduit;The upper arch portion is made of clear material, described
Propeller analogue body is supported by the rigid connection of the lower arch portion and rack by the rack.
7. the anti-cavitation corrosion of coating as claimed in claim 6, resistance to high speed wash away performance test apparatus, it is characterised in that: the propulsion
Device analogue body further includes the stator for being set to the rectification space, and the stator includes being total to determining for central axes with the rectification space
Hub and it is uniformly distributed in the commutator segment for determining hub, the stator is fixedly connected with the lower arch portion, and the shafting can turn
It is dynamic pass through it is described determine hub and connect with the rotating hub, the rotating hub is backwards to the side of the stator equipped with fair water cone.
8. the anti-cavitation corrosion of coating as claimed in claim 7, resistance to high speed wash away performance test apparatus, it is characterised in that: the rectification
The quantity of piece is more than the quantity of the rotating vane, and plane where the bottom of the commutator segment is perpendicular to where the bottom of the rotating vane
The top of plane, each commutator segment has deviation or deflection compared to its bottom.
9. the anti-cavitation corrosion of coating as claimed in claim 7, resistance to high speed wash away performance test apparatus, it is characterised in that: the rotor
The outlet end of fluid in the rectification space, the arrival end of stator fluid in the rectification space are described whole
Fluid space is the truncated cone-shaped structure being gradually reduced from its arrival end to its outlet end internal diameter.
10. the anti-cavitation corrosion of coating as claimed in claim 9, resistance to high speed wash away performance test apparatus, it is characterised in that: the rectification
Underwater miniature high-definition camera and underwater light source are equipped on the outside of the outlet end in space, the underwater miniature high-definition camera is through saturating
The bright upper arch portion is directed at the outer surface for carrying annulus, and the underwater light source is used to take the photograph for the underwater miniature high definition
Camera light filling;One control cabinet connects the driving equipment, the underwater miniature high-definition camera and the underwater light source as it
Power supply.
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CN201811565488.7A CN109596506B (en) | 2018-12-20 | 2018-12-20 | A kind of anti-cavitation corrosion of coating, resistance to high speed wash away performance test apparatus |
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CN201811565488.7A CN109596506B (en) | 2018-12-20 | 2018-12-20 | A kind of anti-cavitation corrosion of coating, resistance to high speed wash away performance test apparatus |
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CN2672646Y (en) * | 2004-01-22 | 2005-01-19 | 中国矿业大学 | Test device for cavitation property of test material |
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